- Free software: GNU GENERAL PUBLIC LICENSE V2
- Website: https://swolfpy-project.github.io
- Documentation: https://swolfpy.readthedocs.io
- Repository: https://github.com/SwolfPy-Project/swolfpy
- Life-cycle assessment of Municipal Solid Waste (MSW) systems
- Comparative LCA
- Contribution analysis
- LCI report
- Monte Carlo simulation
- Uncertainty analysis
- Data visualization (distributions & correlations)
- Optimization
- Minimize environmental burdens or cost subject to a number of technical or policy-related constraints
Process model | Description | |
---|---|---|
1 | Landfill (LF) | Calculates emissions, material use, and energy use associated with construction, operations, closure and post-closure activities, landfill gas and leachate management, and carbon storage. |
2 | Waste-to-Energy (WTE) | Calculates emissions, mass flows, and resource use and recovery for the mass burn WTE process. |
3 | Gasification & Syngas Combustion (GC) | Calculates emissions, mass flows, and resource use and recovery for the GC process (Produced syngas from gasification is combusted to produce electricity by steam turbine). |
4 | Composting (Comp) | Calculates emissions, mass flows, and resource use and recovery for aerobic composting process and final use of compost. |
5 | Home Composting (HC) | Calculates emissions, mass flows, and resource use and recovery for home composting process and final use of compost. |
6 | Anaerobic Digestion (AD) | Calculates emissions, mass flows, and resource use and recovery for anaerobic digestion process and final use of compost. |
7 | Single-Stream Material Recovery facility (SS_MRF) | Calculates cost, emissions, and energy use associated with material recovery facilities. |
8 | Refuse-Derived Fuel (RDF) | Calculates cost, emissions, and energy use associated with RDF production facilities. |
9 | Reprocessing (Reproc) | Calculates emissions, mass flows, and resource use and recovery associated with recycling materials. |
10 | Transfer Station (TS) | Calculates cost, emissions, and energy use associated with Transfer Stations. |
11 | Single Family Collection (SF_Col) | Calculates cost, emissions, and fossil fuel use associated with MSW collection from single family sector. |
12 | Multi Family Collection (MF_Col) | Calculates cost, emissions, and fossil fuel use associated with MSW collection from multi-family sector. |
13 | Commercial Collection (COM_Col) | Calculates cost, emissions, and fossil fuel use associated with MSW collection from commercial sector. |
14 | Animal Feed (AnF) | Calculates cost, emissions, and energy use associated with conversion of food waste to animal feed and final use of produced feed. |
1- Download and install miniconda from: https://docs.conda.io/en/latest/miniconda.html
2- Update conda in a terminal window or anaconda prompt:
conda update conda
3- Create a new environment for swolfpy:
conda create --name swolfpy python=3.9 graphviz
4- Add Graphviz executables to your system PATH (This step is optional; Enables plotting SWM network). You can find Graphviz executables in \\miniconda3\\envs\\swolfpy\\Library\\bin\\graphviz
folder or search for dot.exe
file in your system. Add the directory to the Path
variable in your environment variables.
5- Activate the environment:
conda activate swolfpy
6- Install swolfpy in the environment:
pip install swolfpy
7- Open python to run swolfpy:
python
8- Run swolfpy
In terminal:
swolfpy # or python -m swolfpyIn python:
import swolfpy as sp sp.SwolfPy()